CUNHA, B. B.; http://lattes.cnpq.br/9041905898773855; CUNHA, Bartira Brandão da.
Résumé:
The increasing search for alternative materials that bring less damage to the environment resulted in the development of biodegradable polymers. These materials, from the viewpoint of obtaining processing, show a reduction in the energy consumption and the lack of inertia in its degradation imply the reduction of plastic waste accumulation in the environment. However, some of these polymers such as poly (lactic acid) - PLA, for example, have some limitations on their application, being a polymer of high rigidity and brittleness. In order to expand the commercial use of PLA, some research is being done with the aim of improving these properties. On this basis, the current doctoral work aimed to study the effect of polymeric modifiers and organoclay in PLA properties in order to obtain greater insight into this new type of material. For this work occurred in two stages: the first were used three different polymeric modifiers, each was used individually with the PLA in proportion 90/10 (PLA / Modifier); the second, for each PLA / modifier system was added 3 phr of the content (parts per hundred resin) of organophilic clay. The modifiers used were Biostrength 150, the Paraloid and E-GMA, and bentonite clay was the Brasgel. The mixtures were made by way of merger. To evaluate the effect of change in PLA samples were characterized by the techniques of X-ray Diffraction (XRD), Infrared Spectroscopy in the Region Fourier Transform (FTIR), Traction Mechanical Testing and Impact, Scanning Electron Microscopy (SEM) Thermal Analysis by Differential Scanning Calorimetry (DSC), thermogravimetry (TG) and Dynamic-Mechanical (DMTA), Rheology and analysis Temperature Heat Distortion (HDT). The results showed that the mechanical properties of impact resistance improved significantly with the use of polymeric modifiers and also when it was the combination with the organoclay. Overall mechanical properties indicate that there was no significant toughening the PLA loss modulus. Morphological analysis showed a good dispersion of the material. And the thermal properties did not change much. Rheological data obtained in testing suggest the formation of a percolating network in the presence of the clay. In conclusion therefore is that polymeric modifiers acted as energy sinks and use of the clay modifiers inhibit coalescence of the polymer matrix in the middle, in fact acting as a barrier.
